珍稀濒危植物海南粗榧种群遗传多样性研究

利用RAPD技术对珍稀濒危植物海南粗榧（Cephalotaxus manniiHook.f.)遗传多样性水平,分布、濒危原因及物种保护等问题进行了探讨。结果表明：1、海南粗榧在海南岛的5个取样地点表现出低水平的遗传多样性,对环境变化物适应能力不强;2、海南粗榧种群内和种群间的遗传多样性所占比例有很大差异,绝大部分变异分布于种群内（DAN多样性为85.1%);种群间仅有较低程度的分化;3、人为砍伐,植被破坏,台风、被食用遗传漂变是海南粗榧遗传多样性低水平的主要原因,也是物种濒危的主要原因;4、对于呈零星分布的濒危植物海南粗榧的研究与保护,应充分考虑个体小环境之间的差异。考虑影响小种群的随机因素;5、应采取有力措施,就地保护现有种群,并寻求适当的方法迅速扩展种群,降低基因丧失率;选择遗传多样性较高且破坏相对较小的黎母岭种群作为保护重点;同时应加强对其他种群的保护与管理;6、海南粗榧种群内,种群音质遗传多样性在不同引物之间有较大差别。多态性位点百分率则是种群间的变化大于引物间的变化。     

不同种群海南粗榧(Cephalotaxus mannii)遗传多样性研究

采用垂直板型凝胶电泳技术 ,对海南粗榧 5个种群的遗传多样性进行了研究 ,结果表明 :海南粗榧遗传多样性水平低 ,多态位点比率 P=0 .3 3 ,等位基因平均数 A=1 .3 3 ,平均期望杂合度为 He=0 .1 3 5 ,观察杂合度 Ho=0 .1 3 9,黎母山种群所具有的相对丰富的遗传多样性使其成为保护和科研的重点     

海南粗榧(Cephalotaxus mannii Hk.f.) 5个种群遗传多样性及分化研究

采用垂直板型聚丙烯酰胺凝胶电泳测定了海南粗榧5个种群遗传多样性和遗分化程度。结果表明：海南粗榧种群遗传多样性水平较低,多态位点比率P＝0．33,等位基因平均数A＝1．33,平均期望杂合度为He=0．135,观察杂合度为Ho＝0139。种群间遗传分化程度较低,基因分化系数Gst=0.123,种群间遗传一致度和遗传距离的均值分别为0．9719、9．0288。黎母山种群与其它种群分化最大,其原因可能与传粉时盛行的风向有关。     

珍稀濒危药用植物黄檗野生种群遗传多样性的AFLP分析

黄檗(Phellodendronamurense)是我国珍贵的药用和用材树种,现已被列为国家二级保护植物。为了研究其遗传多样性和遗传结构,以制定有针对性的保护策略,作者采用8对荧光引物,对来自10个野生种群共计129个黄檗个体进行了AFLP分析。共扩增出1,704条谱带,其中多态带1,581条。遗传分化系数Gst为0.3420,即有34.20%的遗传变异来自种群间。黄檗物种水平的遗传多样性高于种群水平:在物种水平上,多态位点百分率PPL=92.77%,有效等位基因数Ne=1.4636,Nei’s基因多样性指数H=0.2316,Shannon信息指数I=0.4275;在种群水平上,PPL=54.20%,Ne=1.2487,H=0.1524,I=0.2371。UPGMA聚类结果表明,黄檗野生种群可分为四类,并且来自同一地区的黄檗个体有聚为一类的趋势,说明其遗传变异可能与生境有关。建议在各种群内大量采样,实施迁地保护;在长白山、完达山、大兴安岭、小兴安岭、千山以及燕山山脉的云蒙山等地区,均匀布点划分区域进行就地保护,保护种群完整性,促进种群自我更新。     

海南鹦哥岭自然保护区的珍稀濒危植物与保育

对鹦哥岭的珍稀濒危植物进行野外调查表明,本区共有野生分布的珍稀濒危植物79种,隶属于47科71属。其中属于1999年国家重点一级保护4种,如海南苏铁(Cycas hainansis)、坡垒(Hopea hainansis)、台湾苏铁(Cy-cas taiwaniana)和伯乐树(Bretschneidera sinensis),国家二级保护14种。建议将18种列入国家保护名录中,20种列入省级保护名录,其中有30种为海南特有种。鹦哥岭珍稀濒危植物面临的威胁主要有原始森林面积的减少、人为毁林开荒和分布区限制。针对珍稀濒危植物的现状和受到的威胁,提出了应重点加强保护的6个地点及相应的保护对策和建议。     

珍稀濒危植物半枫荷的遗传多样性及遗传结构

利用15对EST-SSR引物对半枫荷(Semiliquidambar cathayensis Hung T.Chang)的遗传多样性与遗传结构进行分析.结果显示,半枫荷的遗传多样性水平较高(He=0.816),遗传变异主要存在于居群内(76.63％),但不同地区间遗传分化系数较高(Fst=0.176).半枫荷的17个居...     

海南粗榧生物生态学特性初步研究

海南粗榧(Cephalotaxus mannii Hook.f.)主产海南,是生产抗癌药物三尖杉酯碱(harringtonine)及高三尖杉酯碱(homoharringtonine)的主要原料。开发利用已有10多年的历史,由于发现该植物的药用价值时,其资源蕴藏量已经很少,经过10多年的开发利用,现已成罕见树种,为国家二级保护植物。进行生物学生态学特性以及繁殖技术研究,可为就地保护、迁地保护及建立原料生产基地提供基础资料。     

海南粗榧的离体快速繁殖

1植物名称海南粗榧(Cephalotaxus hainanensisLi). 2材料类别茎段. 3培养条件基本培养基为MS.(1)启动培养基:1/2MS 5%椰子乳(CM);(2)芽的增殖培养基:MS 6-BA 2.0 mg·L-1(单位下同) NAA 0.1 5%CM 0.2%活性炭;(3)生根培养基:1/2MS IBA10.上述培养基中麦芽糖浓度均为3%,琼脂浓度为0.6%,pH 5.8～6.0.培养温度为25～27℃,光照时间16 h·d-1,光强为30～40μmol·m-2·s-1.     

海南粗榧濒危的原因和保护措施

海南粗榧的根、茎、叶、皮和果实都含有生物碱,具有较强的抗癌功效。由于它本身是一种残遗植物,天然更新能力差,分布数量有限,加以遭到过度的砍伐,已陷入灭绝的边缘。本文通过论述其地理分布、生物生态学特性、栽培技术,分析其濒危原因,提出保护措施,期待把其从灭绝边缘挽救过来,提供更多的资源。     

Genetic Diversity of Cephalotaxus mannii,a Rare and Endangered Plant

Using RAPD technique, the DNA diversity of Cephalotaxus mannii Hook. f., its genetic diversity pattern,the reasons for its endangered position and conservative approaches were studied. The results show that: 1. The genetic diversity of C. mannii collected from five localities in Hainan is low, and its adaptability to environmental change is weak. 2. The differences of genetic diversity between intra and inter populations are great, and the major variation distributes within the population (DNA diversity is 85.1%). 3. The excessive lumbering, man made destruction, violent typhoon, edible value of the seeds and genetic drift were the main reasons for the low level genetic diversity of C. mannii and its endangered position. 4. The difference of the micro environment and other random factors affecting the population should also be taken into full consideration in the study and in protection of such occasionally scattered plants. 5. Enforced measures should be taken to protect the present population, enlarge the population and lower the loss rate of its gene. Mt. Limulin should be chosen as a conservative spot because of its high genetic diversity and less destruction of the forest. Meanwhile, the protection of other populations should be enforced. 6. The differences within and between the populations are great based on different primers used. The change of proportions in polymorphic loci between the populations is more than that between the primers.     

海南粗榧愈伤组织的诱导和培养

海南粗榧的嫩茎和嫩叶以0.1%升汞消毒12 min的效果最好.外植体在MS 0.1 mg·L.6-BA l mg·L-1NAA 2mg·L-12,4-D 3.0%蔗糖 0.6%卡拉胶(pH 5.8)培养基中能顺利诱导出愈伤组织.液体悬浮和暗培养均有利于愈伤组织的增殖.愈伤组织增殖的最佳培养基为MS 0.1 mg·L-1KT 3 mg·L-1NAA 3.0%蔗糖(pH 5.8).     

海南粗榧(Cephalotaxus mannii)不同种群表型结构的数量分析

海南粗榧为科粗榧属常绿乔木 ,雌雄异株[2 ] ,主要分布在海南岛的尖峰岭、黎母山、吊罗山、卡法岭、坝王岭等。其材质均匀 ,纹理细 ,是非常理想的材种 ;同时 ,它的根、茎、叶和果实都含有三尖杉酯碱及高三尖杉酯碱 ,是生产抗癌药物的原材料[2 ,3] 。但由于种种原因 ,目前数量稀少 ,据调查统计 ,胸径超过 10ｃｍ的林木在海南不过 130 0株[3] ,现已陷于濒危境地 ,为国有二级重点保护植物[10 ] 。本文从表型上对不同种群海南粗榧进行了系统调查和分析 ,为进一步探明海南粗榧的种质资源状况 ,探索海南粗榧种群分化和演进 ,同时为就地保护、迁地…     

珍稀濒危植物阜康阿魏的遗传多样性及遗传结构

明确珍稀濒危小种群阜康阿魏(Ferula fukanensis)的遗传多样性和遗传结构,是对其制定有效的保护和管理策略的基础和前提。本研究基于10对多态性好且可以稳定扩增的SSR引物对来源于3个居群87个珍稀濒危植物阜康阿魏的遗传多样性和遗传结构进行分析。结果显示：小种群的阜康阿魏具有相对较高的遗传多样性,居群间Nei’s基因多样性指数(h_S)为0.514,总的Nei’s基因多样性指数(h_T)为0.516,观测杂合度(H_o)为0.881,期望杂合度(H_e)为0.512,香农信息指数(I)为0.836,多态位点百分率(P_PB)为100%,遗传分化程度较低(F_st=0.007),95.9%的变异发生在居群内,遗传距离与地理距离无显著相关性,66.7%的居群遭遇了遗传瓶颈。结果表明,阜康阿魏遗传变异丰富,有较高的进化潜力。结合该种野外种群现状,建议建立保护区,开展就地保护,并加强引种和人工繁育等迁地保护措施,辅助阜康阿魏保育。本研究可为阜康阿魏植物资源保护提供理...     

不同种群中海南粗榧(Cephalotaxus mannii)形态变异研究

通过变异系数和性状差异显著性检验,研究了海南粗榧在坝王岭等５个种群内和种群间不同形态变异以及形态总体变异。结果表明：①海南粗榧营养器官性状比生殖器官性状变异大;枝性状组中,分枝角度变异较小;叶性状组中,叶数量变异较大;球果、种子生物量变异都大于它们的其它性状。②在５个种群内,同一性状变异幅度基本相同。③同一性状在种群间和种群内的变异基本接近。④不同性状在种群间存在差异,有的显著,有的不显著,但种群间形态总体差异都不显著     

Genetic Diversity in Cymophyllus fraserianus (Cyperaceae), a Rare Monotypic Genus

Cymophyllus fraserianus (Fraser's sedge) is a rare perennial evergreen herb found in late-successional forest communities in the Appalachian Mountains of the U.S. Genetic diversity was assessed at 19 allozyme loci for 12 populations sampled from the southern and central portions of the range of this primitive monotypic genus. Species variation was comparable to that found for other narrowly distributed species, although mean population genetic diversity was somewhat higher. Sixteen of the 19 loci (84%) were polymorphic, with a mean of 46% polymorphic within populations. On average, 2.7 alleles were detected per polymorphic locus. Genetic diversity within populations (Hep) averaged 0.113, whereas species' genetic diversity (Hes) was 0.131. Although a twofold range of within-population genetic diversity (Hep = 0.075-0.158) was found, less than 13% of the genetic variation was distributed among populations (G(ST) = 0.129). An indirect estimate of historical levels of gene flow (Nm = 1.69) was consistent with the high mean genetic identity (mean I = 0.96) found between populations. Despite the relictual nature of C. fraserianus, its rarity and fragmented distribution, genetic diversity within the genus is typical of herbs with similar life-history characteristics. No association was found between geographic and genetic distances between populations (r = -0.01; p > 0.9), suggesting that present day populations are relatively isolated.     

Genetic diversity in Isoetes yunguiensis, a rare and endangered endemic fern in China

Isoetes yunguiensis is an endangered and endemic fern in China.Field survey indicated that only one population and no more than 50 individuals occur in the wild.The genetic variation of 46 individuals from the population remaining at Pingha (Guizhou Province,China)was assessed by Random Amplified Polymorphic DNA (RAPD)fingerprinting.Twelve primers were screened from sixty ten-bp arbitrary primers,and a total of 95 DNA fragments were scored.Of these,62.1%were polymorphic loci,which indicated that high level genetic variation existed in the natural population.The accumulation of genetic variation in the history of the taxon and the apparent minimal reduction effect on genetic diversity following destruction of habitat might be responsible for the high level genetic diversity presently remaining in the I.yunguiensis population.However,with the continuing decrease of population size,the genetic diversity will gradually be lost.We suggest that the materials from the extant population should be used for re-establishment of the populations.